Adjustable bait-receiving fishing lure

ABSTRACT

An adjustable bait-receiving fishing lure is disclosed for use in receiving baits of varying size and producing differing lure retrieval patterns. The bait-receiving includes a top section and bottom section that cooperatively engage the upper and lower forward portions of a bait. A diving lip controls the depth at which the lure is retrieved and provides a swimming action. A screw, passing through disc-like portions of the top piece, bottom piece, and diving lip allows the relative orientation of these components to be adjustably secured. In this manner, baits of varying size can be accommodated between the top and bottom sections, while the diving lip is adjusted to produce a desired lure retrieval pattern for the particular size of herring and trolling speed involved. To adjust the lure&#39;s action, the line is attached to the diving lip by a removable and rotatable, frictionally secured plug. By changing the orientation of the plug with respect to the diving lip, the point of connection between the line and lure varies, allowing the lure to traverse a helical pattern underneath the surface of the water.

FIELD OF THE INVENTION

This is a continuation of application Serial No. 078,108, filed July27,1987, now U.S. Pat. No. 4,791,751 the benefit of the filing date ofwhich is hereby claimed under 35 USC §120. This invention relates tofishing lures and, more particularly, to fishing lures for use withbait.

BACKGROUND OF THE INVENTION

Artificial lures have long been used to catch fish. While such lurestypically ismulate the natural prey of the species of fish sought, theyhave a number of advantages over natural baits. For example, artificiallures are relatively durable and can be used repeatedly over longperiods of time. Further, when drawn through the water by trolling ormanual retrieval of the fishing line, artificial lures are often able tosimulate the action of a natural bait in a manner that could not beaccomplished wth the use of the bait alone. In addition, becauseartificial lures are available in a broad range of constructions andcolorations, a particular lure can be selected to enhance the likelihoodof catching fish in accordance with the existing conditions of water andweather, the size and species of fish sought, the bottom structureavailable, and the location of the fish with respect to the surface.

In spite of the foregoing advantages attributable to artificial fishinglures, certain desirable features of natural baits are difficult toincorporate into such lures. For example, the scent of a natural bait,such as a herring, is difficult to introduce and maintain in anartificial lure. Further, it is difficult to produce a fishing lurehaving the same texture or consistency as the natural bait simulated, afactor that may cause a fish to reject the lure before becoming hooked.In addition, the use of relatively soft artificial baits can be somewhatexpensive, given the tendency of the bait to pull free of the hooks whena fish strikes and is being fought.

To achieve a combination of the advantages noted above, artificial lureshave been designed for use with natural baits. Such lures, however, aretypically only usable with a relatively limited range of bait sizes anddo not adequately secure the bait. Further, while such lures may includesome mechanism for controlling the lure's retrieval depth, or theparticular bait action simulated, control over these features istypically quite limited.

In light of the foregoing observations, it would be desirable to providean adjustable, bait-receiving fishing lure capable of producing avariety of retrieval patterns and for use with baits having a relativelywide range of sizes. In addition, because of the visual attraction offish to natural baits, it would be desirable to maintain good visibilityof the bait while holding it securely in place. Further, it would bedesirable to produce a bait-receiving lure that has a minimaldestructive impact on the bait.

SUMMARY OF THE INVENTION

In accordance with this invention, an adjustable fishing lure isdisclosed for receiving baits of different sizes and, when attached to afishing line and retrieved through water, for interacting with the waterin various manners. The fishing lure includes first and secondbait-contacting members for cooperatively engaging the bait. A lureguide member is also included to interact with the water through whichthe fishing lure is retrieved. An adjustable connector joins the firstbait-contacting member, the second bait-contacting member, and the lureguide member. In this manner, the first and second bait-contactingmembers are allowed to cooperatively engage baits of different size andthe interaction between the guide member and the water is allowed tovary.

In accordance with a particular aspect of this invention, the lure guidemember includes a guide portion having a hole provided therethrough. Aplug is provided for partial axial insertion into the hole. The plug andhole are dimensioned to produce an interference fit therebetween whenthe plug is inserted into the hole. The plug includes a duct normal toits longitudinal axis and dimensioned to receive the fishing line. Theorientation of the duct with respect to the guide portion of the lureguide member, in part, determines the path of the fishing lure whenretrieved.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will presently be described in greater detail, by way ofexample, with reference to the accompanying drawings, wherein:

FIG. 1 is a pictorial view of a bait-receiving lure constructed inaccordance with this invention and, in which, a herring is received;

FIG. 2 is an exploded pictorial view of the bait-receiving lureillustrated in FIG. 1;

FIG. 3 is a side view of the bait-receiving fishing lure of FIG. 1 withbroken lines used to illustrate the adjustment of the lure toaccommodate baits of different size;

FIGS. 4A, 4B, and 4C are side views of the bait-receiving fishing lureillustrated in FIG. 1, which illustrate the manner in which theretrieval pattern of the lure can be varried;

FIG. 5 schematically depicts the various retrieval patterns that can beadjustably produced by a fishing lure constructed as shown in FIG. 1;

FIGS. 6A, 6B, and 6C are top views of the bait-receiving lureillustrated in FIG. 1, which illustrate the manner in which additionalvariations in the lure retrieval pattern can be accomplished;

FIG. 7 is a cross-sectional view of the bait-receiving fishing lureillustrated in FIG. 1, showing the use of a nonlinear line passagethrough a portion of the lure body; and

FIG. 8 illustrates an alternative embodiment of the bait-receivingfishing lure illustrated in FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION

Referring now to FIG. 1, an adjustable bait-receiving fishing lure 10 isshown engaging a bait 12 such as a herring. As will be discussed ingreater deail below, lure 10 is constructed to provide a number ofdesirable features. For example, lure 10 adjustably receives herring 12of different sizes, securely supporting them in a manner that minimizesdamage to the herring 12 and offers good visibility. Fishing lure 10 isfurther adjustable to control the retrieval depth of the lure for theparticular herring size and trolling speed involved, as well as theside-to-side swimming action produced by the lure upon retrieval.Finally, lure 10 is constructed to move up the line away from the hookswhile a fish is being fought and remain in that position when the fishis netted.

As shown in FIG. 1, the lure 10 includes a top piece 14 and bottom piece16 for cooperatively engaging upper and lower, forward portions ofherring 12. A diving lip 18 is included to guide lure 10 downward andgive it a swimming action when retrieved through the water. A screw 20joins the top piece 14, bottom piece 16, and diving lip 18 in acontinuously adjustable manner that allows lure 10 to be adjusted foruse with herring 12 of different size and for retrieval at differentdepths with different actions. Terminal gear 22, passing through lure10, connects the lure to the fishing line. A rotatable plug 24,frictionally and removably secured in the diving lip, maintains thedesired orientation of the terminal gear 22 with respect to diving lip18, allowing the lure action to be controlled until a fish strikes.

Addressing the various elements of lure 10 in greater detail, referenceis had to the exploded pictorial view of lure 10 provided in FIG. 2.Considering first the top piece 14, as shown in FIG. 2, it includes aforward, disc-like portion 26 and a rearwardly depending, channeledportion 28. The disc-like portion 26 has a predetermined diameter d andthickness t. A hole 30, having a diameter d', is provided through thecenter of disc-like portion 26, normal to its flat sides.

The channeled portion 28 of top piece 14 projects rearwardly from thedisc-like portion 26 and defines a downwardly directed channel 32 forreceiving an upper, forward portion of the herring 12. Moreparticularly, the channeled portion 28 includes a central region 34 thatdecreases in thickness as it extends away from disc-like portion 26. Thecentral region 34 extends laterally into spaced-apart side regions 36that project downwardly, roughly parallel to disc-like portion 26. Thethickness of the side regions 36 decreases slightly with distance fromdisc-like portion 26 and central region 34. As a result, the width ofthe channel 32 increases slightly with distance from the disc-likeportion 26 to more closely accommodate the body of a herring 12. Thelength of the side regions 36 is somewhat greater than that of centralregion 34 and the lower edge 38 of each side region 36 is cupped. Asshown in FIG. 2, the edges and surfaces of the channeled portion 28 varygradually to minimize abrasion to herring 12 and provide a hydrodynamicexterior.

The disc-like portion 26 and channeled portion 28 are joined such thatone of the flat surfaces of the disc-like portion 26 lies in the planebisecting the central region 34 of channeled portion 28. Both thedisc-like portion 26 and channeled portion 28 of top piece 14 canconveniently be molded as a single piece from, for example, a clearthermoplastic material. A staple 40, made of stainless steel and havinga pair of downwardly projecting pins 42, can be molded into the toppiece 14 approximately three-fourths of the distance between thedisc-like portion 26 and the end of the central region 34 of thechanneled portion 28. The pins 42 are spaced-apart, in a plane normal tochannel 32, a distance sufficient to cause herring 12 to be pierced oneach side of its spine.

Turning now to a more detailed description of the bottom piece 16 oflure 10, bottom piece 16 roughly mirrors the top piece 14. Moreparticularly, the bottom piece 16 includes a disc-like portion 44 and arearwardly depending, channeled portion 46. The disc-like portion 44preferably has a diameter d and thickness t corresponding to those ofthe disc-like portion 26 of top piece 14. Similarly, disc-like portion44 is provided with a hole 48 through its center and normal to its flatsurfaces. The diameter d' of hole 48 is equal to that of hole 30 in thedisc-like portion 26 of top piece 14.

The channeled portion 46 of bottom piece 16 projects rearwardly fromdisc-like portion 44 to define an upwardly directed channel 50 that issimilar to the downwardly directed channel 32 of the top piece 14, butis slightly more V-shaped in cross section. The channeled portion 46includes a central region 52 whose thickness decreases as a function ofdistance from disc-like portion 44. Side regions 54 are provided on eachside of central region 52 roughly parallel to the disc-like portion 44.The thickness of the side regions 54 decreases slightly with distancefrom central region 52 and disc-like portion 44. As a result, the widthof channel 50 increases slightly with distance from disc-like portion 44and central region 52 to closely accommodate the lower, forward portionof herring 12. The upper edges 56 of each side region 54 of thechanneled portion 46 are cupped.

The lower surface of the channeled portion 46 of bottom piece 16,opposite upwardly directed channel 50, is provided with a concavedepression 58 of uniform width dimensioned to receive a portion of asplit ring, shown best in FIG. 1. A projection 60, provided on the lowersurface of the channeled portion 46, at the front of depression 58, isalso concavely slotted for receipt of a portion of the split ring. Theforward surface of projection 60 is connected to concave depression 58by a hole 62, allowing a line to pass through projection 60 and connectto the split ring.

The disc-like portion 44 and channeled portion 46 of bottom piece 16 areconnected such that one face of the disc-like portion 44 lies in theplane bisecting the central region 52 of the channeled portion 46. Aswill be discussed in greater detail below, the disc-like portions 26 and44 of the top piece 14 and bottom piece 16 are offset in oppositedirections, allowing them to abuttingly contact when the central regions34 and 52 of pieces 14 and 16 are aligned about a common central plane,as shown in FIG. 1. Like top piece 14, the entire bottom piece 16 can beconveniently molded as a unit from a clear thermoplastic material.

Turning now to a more detailed description of the diving lip 18, asshown in FIG. 2, diving lip 18 includes a forward, teardrop-shaped plate64 and a pair of rearwardly depending, disc-like portions 66 and 68. Asshown, the width of the forward plate 64 is smallest at the end adjacentdisc-like portions 66 and 68. The length, width, and overall shape ofthe forward plate 64 can be varied to alter the interaction betweenforward plate 64 and the water, thus affecting the swimming action andretrieval depth of lure 10. For example, diving lip 18 can include acurved forward piece in place of plate 64.

In the preferred embodiment, the edge 70 of the forward plate 64 is at a45-degree angle with respect to the upper and lower surfaces of plate64. In this manner, a knife edge is provided at the front of forwardplate 64 for greater control in the water. A hole 72 is located throughforward plate 64 normal to the flat surfaces of the plate 64. Hole 72 ispositioned along a line that bisects diving lip 18 at a point proximatethe end of forward plate 64 that is connected to disc-like portions 66and 68. As shown in FIG. 1, a boss 82 is provided around the perimeterof hole 72 on the lower surface of forward plate 64. Boss 82conveniently extends the inner surface area of hole 72, allowing a moresecure frictional engagement between plug 24 and the forward plate 64.

The disc-like portions 66 and 68 of diving lip 18 are securedsubstantially perpendicular to forward plate 64 and project rearwardlytherefrom. Disc-like portions 66 and 68 each have an approximatediameter d and thickness t that correspond to the diameter d andthickness t of the disc-like portions 26 and 44 of top piece 14 andbottom piece 16, respectively. Disc-like portions 66 and 68 arespaced-apart a distance 2t, which is sufficient to cooperatively receivedisc-like portions 26 and 44 therebetween.

The disc-like portion 66 of diving lip 18 is provided with a hole 74having a diameter d' corresponding to that of the holes 30 and 62 in thedisc-like portions 26 and 44 of top and bottom pieces 14 and 16,respectively. Hole 74 is additionally chamfered to receive the taperedhead of flat screw 20. The other disc-like portion 68 of diving lip 18is provided with a hole 76 that is axially aligned with hole 74 and thathas a diameter d". This diameter d" of hole 76 is slightly larger thanthat of hole 74 and is dimensioned to receive a threaded brass insert78.

The opening 80 defined between the disc-like portions 66 and 68 ofdiving lip 18 is sufficiently deep to leave a space between the divinglip 18 and the disc-like portions 26 and 44 of the top and bottom pieces14 and 16 when holes 30, 62, 74, and 76 are axially aligned. As will bediscussed in greater detail below, this opening provides a passage forthe terminal gear 22 between the upper and lower portions of lure 10.

As will be appreciated, diving lip 18, like to p piece 14 and bottompiece 16, can conveniently be molded in a single piece from a clearthermoplastic material. While the brass insert 78 can also be moldedinto the disc-like portion 68, in a preferred arrangement, insert 78 hasa roughened exterior that allows it to be ultrasonically welded in placewhen the adjacent plastic is temporarily ultrasonically melted and thenhardened in place.

A brass flat screw 20 dimensioned to pass through clearance holes 30,48, and 74, is threaded into cooperative engagement with the internalthreads of insert 78. As will be discussed in greater detail below,screw 20 joins the top piece 14, bottom piece 16, and diving lip 18together to define an adjustable bait-receiving cavity between thedownwardly and upwardly directed channels 32 and 50.

The terminal gear 22 connects lure 10 to fishing line 86. As shown inFIG. 1, terminal gear 22 includes a swivel 84 that is preferably of thestainless steel, ball-bearing, or barrel type. The function of swivel 84is to prevent lure 10 from twisting the fishing line 86 in th event thata fish is hooked or lure 10 becomes tangles.

One end 88 of swivel 84 is connected to the fishing line 86, while amonofilament leader 90 is secured to the other end 92. As will beappreciated, the two ends 88 and 92 of swivel 84 pivot independently ofeach other. Monofilament leader 90 is also connected to a split ring 94equipped with a hook 96, which is preferably a stainless steel treblehook. A second hook 98 is connected to the first hook 96 by an extensionleader 100.

As shown in FIG. 1, monofilament leader 90 passes through the hole 62 inthe projection 60 on the lower surface of bottom piece 16, drawing splitring 94 up into the concave depression 58. The leader 90 then continuesthrough the opening 80 provided between the diving lip 18 and thedisc-like portions 26 and 44 of top piece 14 and bottom piece 16. Then,plug 24 determines the orientation of leader 90 with respect to divinglip 18.

As will be appreciated, plug 24 is a slightly tapered, roughlycylindrical piece, dimensioned for axial insertion into the hole 62 thatis provided in the forward plate 64 of diving lip 18. The roughlycylindrical surface 102 of plug 24 is designed to frictionally engagethe wall of hole 62 and boss 82. A passageway 104 is provided throughplug 24 normal to its longitudinal axis and a screwdriver slot 105 isprovided in the upper surface of plug 24. Passageway 104 is dimensionedto receive monofilament leader 90 and, when plug 24 is frictionallyengaged within hole 62, it determines the orientation of leader 90 withrespect to lure 10 at the point of attachment.As will be discussed ingreter detail below, by rotating the frictionally inserted plug 245witht he aid of a screwdriver applied to slot 105, a variety of lure 10actions can be easily achieved.

Turning now to a discussion of the manner in which herring 12 ofdifferent size can be inserted in lure 10, reference is had to FIG. 3.As will be appreciated, screw 20 is used to assemble top piece 14,bottom piece 16, and diving lip 18 into an adjustable lure 10. Byrotating screw 20 counterclockwise sufficiently to release thefrictional engagement between the head of screw 20 and the chamferedsurface of hole 74, the top piece 14 and bottom piece 16 can be rotatedabout screw 20 in opposite directions, allowing a herring 12 to beeasily inserted between the downwardly and upwardly directed channels 32and 50.

With screw 20 still loose, the top piece 14 and bottom piece 16 arerotated toward each other until the pins 42 of the staple 40 mounted intop piece 14 pierce herring 12 and the channeled portions 28 and 46 oftop piece 14 and bottom piece 16 cooperatively engage forward portionsof the herring 12. Screw 20 is then rotated clockwise until its head isbrought into frictional engagment with the chamfered portion of hole 74,securing the disc-like portions 26 and 44 of the top and bottom pieces14 and 16 between the disc-like portions 66 ad 68 of diving lip 18. Inthis manner, the herring 12 is held securely in place during fishing.

As indicated in FIG. 3, the arrangement described above allows herring12 of various sizes to be adjustably received between the top piece 14and bottom piece 16 of lure 10. More particularly, although lure 10 iscontinuously adjustable, the lure is shown adjusted for use with herring12 of two differnt sizes in FIG. 3. As shown in solid line A, the toppiece 14 and bottom piece 16 are adjusted for use with relatively smallherring 12. By appropriately dimensioning the top piece 14 and bottompiece 16, this minimum adjustment can be used to effectively securebaits 12 of substantially any size. As shown in FIG. 3, the minimumadjustment is primarily limited by the abutting contact of lower andupper edges 38 and 56 of the side regions 36 and 54 of top piece 14 andbottom piece 16, respectively.

The broken line view B in FIG. 3 illustrates the adjustment of lure 10for use with somewhat larger herring 12. As will be appreciated, toppiece 14 and bottom piece 16 can be appropriately dimensioned to acceptherring 12 of substantially any maximum size. Further, a particularconstruction of lure 10 is able to accept a relatively wide range ofherring sizes. Manual adjustments to the orientation of pins 42 withrespect to top piece 14 can be made to ensure that they pierce herring12 in a direction substantially perpendicular to the herring's spine,thereby offering good bait retention.

Turning now to a discussion of the manner in which the retrieval depthand action of lure 10 are adjusted, reference is had to FIGS. 4A, 4B,and 4C. More particularly, when screw 20 has been rotatedcounterclockwise to adjust the spacing of top piece 14 and bottom piece16 to receive the particular herring 12 selected, the desiredorientation of diving lip 18 with respect to these pieces issimultaneously adjusted. As with the spacing of top piece 14 and bottompiece 16, the orientation of diving lip 18 is thereby made continuouslyadjustable.

Although diving lip 18 is constructed to normally have a downturn ofapproximately five degrees, the orientation of diving lip 18 withrespect to lure 10 can be adjusted through a broad range. This range mayextend, for example, between a point at which the forward plate 64 ofthe diving lip 18 lies in the same plane as the spine of herring 12, asshown in FIG. 4A, to one at which it projects substantially downwardforming a 45-degree angle with the spine, as shown in FIG. 4C.

Because the flat upper surface of the forward plate 64 of diving lip 18resists the flow of water against it, diving lip 18 effectively causeslure 10 to seek a path in the direction of diving lip 18. In addition,the symmetric diving lip 18 provides an unstable resistance to the flowof water, causing a wobbling or swimming action to be imparted to lure10. As will be appreciated from FIGS. 4 and 5, the farther diving lip 18is rotated downward, the deeper lure 10 will travel when trolled orretrieved through the water at a given speed. Thus, the variousadjustments shown in FIGS. 4A, 4B and 4C have an effect on the lureretrieval path that is illustrated by the corresponding views A, B, andC in FIG. 5. It will also be appreciated that the resistance of divinglip 18 to the flow of water increases as the diving lip 18 is rotateddownward, imparting a more pronounced swimming action to lure 10.

Because a larger, heavier herring 12 will effectively weigh the back endof lure 10 down and elevate the diving lip 18, a greater downwardcorrection in the adjustment of diving lip 18 is required for largerherring 12 to achieve the same lure 10 depth and lifelike action. Thiseffect may be slightly offset, however, by the added weight of thelarger herring 12. Similarly, because the force of the water against theforward plate 64 of the diving lip 18 is directly proportional to theretrieval or trolling speed of the lure 10, a greater downwardcorrection in the adjustment of diving lip 18 is required to achieve agiven lure depth and action for lower speeds.

To allow the foregoing adjustments to lure 10 to be accurately repeatedfor use with herring 12 of particular sizes and to repeat a desiredretrieval pattern and action, indicator marks 106, shown in FIGS. 4Athrough 4C, are provided on one of the disc-like portions 66 or 68 ofdiving lip 18. With the indicator marks 106 appropriately aligned withthe lower edge 38 of top piece side region 36 and the upper edge 56 ofbottom piece side region 54, the desired herring 12 size, retrievaldepth, and action are easily achieved.

Turning now to the manner in which the swimming action of lure 10 isadjusted, reference is had to the top view of lure 10 shown in FIGS. 6A,6B, and 6C. As discussed previously, the portion of monofilament leader90 extending between split ring 94 and fishing line 86 passes throughthe projection 60 on the lower surface of the bottom piece 16 andtravels upward through the opening 80 provided between the diving lip 18and the disc-like portions 26 and 44 of top piece 14 and bottom piece16. Then, it extends through a passageway 104 in the plug 24, which isfrictionally secured in the hole 72 provided in the forward plate 64 ofdiving lip 18.

Plug 24 accomplishes several functions. First, it allows the attachmentorientation between the leader 90 and diving lip 18 to be continuouslyvaried. More particularly, with plug 24 inserted into, a frictionallyengaged with, the interior of hole 72 and boss 82, leader 90 can bedrawn forward until split ring 94 is securely positioned againstprojection 60 and within the concave depression 58 provided in the lowersurface of bottom piece 16. In this manner, slack is removed from theportion of leader 90 extending behind plug 24 and a relatively snugconnection at diving lip 18 is provided. Then, with plug 24 positionedsuch that passageway 104 is substantially aligned with the verticalplane bisecting lure 10, as shown in FIG. 6A, the force exerted by thewater against the forward plate 64 of diving lip 18 is essentiallybalanced and will cause lure 10 to wobble slightly, producing a swimmingaction as it is drawn through the water.

When a screwdriver is applied to the slot 105 in the uppr surface ofplug 24, and plug 24 is rotated slightly, for example, to the positionshown in FIG. 6B, the effective point of attachment between themonofilament leader 90 and diving lip 18 is shifted slightly upwards andto one side. Because the connection point no longer lies in the plane ofbisection, the surface area of the forward plate 64 on each side of theleader becomes imbalanced. As a result, the water applies more force tothe diving lip 18 on one side of the leader 90, causing a slight twistin the orientation of lure 10 with respect to the water. This causeslure 10 to traverse a somewhat helical path underneath the water as itmaintains it swimming action. As will be appreciated, the magnitude ofthe plug's rotation influences the path traversed. The diameter of thehelical path will decrease as the rotation of the plug 24 is increasedfrom the center position shown in FIG. 6A. Continued rotation of plug 24may ultimately produce an imbalance that is sufficient to impair theaction of lure 10, causing it to twist at the end of the line ratherthan "swim." When plug 24 is rotated in the opposite direction, to theposition shown in FIG. 6C, lure 10 again traverses a substantiallyhelical path through the water, with the progression of the path beingeffectively reversed from that produced by rotation of the plug as shownin FIG. 6B. Because plug 24 is typically frictionally engaged withinhole 72, the rotational adjustment of plug 24 as outlined above is mosteasily accomplished with the aid of a screwdriver applied to the slot105 located in the upper surface of plug 24.

Addressing now the second feature of plug 24, it is helpful first toconsider the occurrence of a strike by a fish upon lure 10. Moreparticularly, the fish exerts a force on one of the hooks 96 or 98 thatis counterbalanced by the force applied by a fisherman to fishing line86. The resultant tension in monofilament leader 90 causes the leader 90to act as a lever against the portion of diving lip 18 adjacent the slot80 between disc-like plates 66 and 68, exerting an upward force on plug24 and dislodging it.

As will be appreciated, if lure 10 is made of a buoyant material, it isthen free to float up the line away from hooks 96 and 98 and the fish.In this manner, lure 10 no longer provides a leverage point for the fishto use to pull hooks 96 and 98 free. Further, by appropriately selectingthe relative tensile strengths of fishing line 86 and monofilamentleader 90, leader 90 will break if hooks 96 and 98 become snagged,allowing lure 10 to float to the surface where it can be retrieved bythe fisherman. Thus, the lure 10 is not easily lost by the fisherman.

In an alternative arrangement, shown in FIG. 7, monofilament leader 90passes through a slightly S-shaped passage 108 in the diving lip 8. Theoperation of lure 10 is essentially the same as described above where astraight passage is used, with the following exception. As will beappreciated, when plug 24 is pulled free of the hole 72 in the forwardplate 64 of diving lip 18, tension in the monofilament leader 90 exertsfrictional forces against the curved walls of passage 108. As a result,the position of lure 10 with respect to leader 90 is maintained whilethe leader 90 is under tension. When a fish is being fought, thefrequent variations in leader 90 tension, combined with the buoyantnature of lure 10, allow lure 10 to work its way up leader 90. When thefish is landed, however, the tension in the line maintains lure 10spaced apart from hooks 96 and 98, thereby reducing entanglement in thenet.

With plug 24 assembled, baited, and adjusted to produce the desiredretrieval characteristics as described above, the lure 10 is ready to beused for fishing. As will be appreciated, the top piece 14 and bottompiece 16 securely engage the herring 12 while maintaining goodvisibility. In this regard, the curved lower and upper edges 38 and 56of side regions 36 and 54 enhance visibility, particularly with respectto the eye of the herring 12. Similarly, by molding top piece 14, bottompiece 16, and diving lip 18 out of a clear thermoplastic material, thelure 10 offers herring 12 in a highly visible manner.

The dimensions of the side regions 54 of the bottom pice 16 are selectedin connection with the particular hook 96 size to prevent the hook fromcatching on the side regions 54. In that regard, the location of theconcave depression 58 provided in the lower surface of bottom piece 16is designed to prevent the hook 96 associated with split ring 94 fromcatching at the end of bottom piece 16. The beveled surfaces and smoothcontours of top piece 14 and bottom piece 16 minimize damage to herring12, allowing it to be used for greater periods.

While various constructions of lure 10 can be employed, on alternativeembodiment is depicted in FIG. 8. As shown, a pair of side sections 110and 112 are employed to cooperatively engage the sides of the herring12. The diving lip 114 includes a forward plate 116 and disc-like plate118. Resilient pads 120 are provided on each side of disc-like plate 118and a screw 122 extends through the side sections 110 and 112, thedisc-like plate 118, and resilient pads 120. As will be appreciated,when a bait is inserted between the side sections 110 and 112, screw 122can be tightened to securely hold a herring 12 in place, with thecompressibility of the resilient pads 120 offering some range ofadjustment in the spacing between side sections 110 and 112. In anotheralternative embodiment, lure 10 is constructed in substantially the samemanner as that depicted in FIG. 8 except that side sections 110 and 112are joined at their forward ends to form a single piece.

Those skilled in the art will recognize that the embodiments of theinvention disclosed herein are exemplary in nature and that variouschanges can be made therein without departing from the scope and thespirit of the invention. In that regard, the construction of top piece14 and bottom piece 16 can be varied for use with different types ofbait 12. Further, it will be recognized that side-to-side, as well asvertical arrangements, can be employed to secure the bait in lure 10.Because of the above and numerous other variations and modificationsthat will occur to those skilled in the art, the following claims shouldnot be limited to the embodiments illustrated and discussed herein.

The embodiments of the invention in which an exclusive property orprivilege is claimed are defined as follows:
 1. An adjustable fishinglure, for interacting with water in various manners, comprising:a lurebody; a lure guide member for cooperatively interacting with the waterthrough which said fishing lure is drawn; and means for rotatably,continuously, adjustably connecting said body and said guide member,allowing the interaction between said guide member and the water to bevaried.
 2. The adjustable fishing lure of claim 1, wherein said lureguide member comprises a pair of lure assembly portions, spaced apart toreceive said lure body therebetween, and a guide portion, to which theresistive force of the water is applied as the lure is drawn through thewater, the depth at which said lure travels through the water being afunction, in part, of the orientation of said guide portion with respectto said body.
 3. The adjustable fishing lure of claim 2, wherein saidmeans for adjustably connecting said guide member and said bodycomprises a screw passing transversely through said body and said lureassembly portions of said guide member.